JP5622388B2 - Reticle illumination device using laser light generating element - Google Patents

Description

  The present invention relates to a reticle illuminating device using a laser light generating element mounted on an aiming telescope having an impact adjustment device.

A sighting telescope having a conventional impact adjustment device is designed to tilt the optical axis of the internal optical system by tilting a part of the internal optical system so that the center of the collimation mark on the reticle of the aiming telescope matches the impact position. The landing position is adjusted by tilting.

As a part of the internal optical system, there is a reticle (field scale) having a collimation mark made up of a crosshair or the like, and the reticle does not emit light by itself. A light source is provided, and an LED (light emitting diode) is generally used as the light source.

Japanese Utility Model Publication No. 6-30708 Japanese Utility Model Publication No. 7-1411

However, in the conventional reticle illuminating device using an LED as a light source, in the case of a reticle that shines only the center of a collimation mark, the brightness of the dot at the center of the reticle inevitably does not become the desired brightness. The reason is that since the illumination light of the LED spreads radially, it is difficult to concentrate the illumination light on a portion that is desired to be brightly lit, so that the necessary brightness (luminance) cannot be obtained.

Further, in the case of a reticle that shines only at the center of the collimation mark, when used in a bright background in the daytime, the illumination light of the LED that illuminates the center of the collimation mark does not become bright for the reasons described above (brightness). Therefore, there is a problem that the center of the collimation mark appears to be not shining.

The present invention uses a laser light generating element to illuminate the center of the collimation mark brightly, and concentrates the illumination light from the laser beam on the center of the collimation mark. An object of the present invention is to provide a reticle illumination device that can provide a bright and easy-to-see reticle.
Another object of the present invention is to provide a reticle illuminating device that can be used later, because the reticle illuminating device of the present invention is configured to be detachably attached to an existing aiming telescope.

According to the first aspect of the reticle illumination device using the laser light generating element according to the present invention,
The laser light generating element is held by a holder provided in the apparatus main body, and the holder and the laser light generating element are arranged outside the field of view of the aiming telescope, and the optical axis of the emitted laser light is oblique to the longitudinal direction of the aiming telescope. A laser beam generating element is arranged so that the laser beam can be crossed, and a single reflector is provided to reflect the optical axis of the laser beam emitted from the laser beam generating element as a horizontal optical axis at the center of the collimation mark on the reticle. The holding tool is provided with an adjustment jig configured to be movable in and out so that the inclination angle of the holding tool can be adjusted , and the apparatus main body can be detachably fixed to the objective lens side of the aiming telescope. A laser beam emitted from the laser beam generating element is provided with an attachment stopper, and can generate a nearly perfect plane wave or spherical wave while maintaining high coherence. Heather light is reticle illumination device using a laser light generating device characterized by be straight without diffusion over long distances.

The reticle illumination device using the laser light generating element according to claim 1 can be easily attached to an existing aiming telescope as a retrofit, and a reticle that is brighter and easier to see than illumination light using LEDs is obtained. It is easy to use and can be easily removed.

1 is a longitudinal front view of a reticle illumination device using a laser light generating element according to the present invention. It is a vertical front view which shows the state which attaches the reticle illuminating device using the said laser beam generating element to the existing aiming telescope. It is a longitudinal front view which shows the state after attaching the reticle illuminating device using the laser beam generating element to the existing aiming telescope.

  Hereinafter, embodiments of the reticle illumination device using the laser light generating element of the present invention will be described with reference to the drawings. However, the present invention is not limited to these embodiments.

The laser beam used in the present invention is characterized by high coherence (coherence), and has spatial coherence and temporal coherence.
The spatial coherence of laser light is a measure of the uniformity of the wavefront of the light, and because of its high spatial coherence, almost perfect plane waves and spherical waves can be created. It is possible to go straight without spreading and converge to a very small spot. The present invention uses the laser light generating element 4 while paying attention to this point, and any laser light generating element 4 having this condition can be used.

  The apparatus main body 1 of the reticle illuminating device of the present invention has a laser light generating element 4 arranged as shown in FIG. 1, and the holder 3 stably holds the laser light generating element 4 in the apparatus main body 1. For example, it is formed of a member having a spherical ring shape.

The holder 3 is configured such that the angle can be adjusted by the adjusting jig 2, and as a result, the laser light generating element 4 held by the holder 3 can also adjust the angle. By making the angle of the laser light generating element 4 variable, the irradiation angle of the optical axis 7 of the laser light emitted from the laser light generating element 4 can be adjusted.
As an example for adjusting the holder 3, the adjustment jig 2 can be configured to move in and out, and the holding angle of the holder 3 can be adjusted by the movement in and out.

A power source 5 composed of a battery or the like of the laser light generating element 4 is disposed in the vicinity of the upper surface of the lid 6, and ensures the brightness necessary for the laser light generating element 4.
In addition, when irradiating laser light from the laser light generating element 4, a condensing lens or the like can be used as necessary, and the emitted laser light is contained in a small luminous flux to concentrate laser light. The irradiation optical axis 7 can be obtained.

The laser light that has passed through the irradiation optical axis 7 is irradiated by the reflecting plate 9 to become a reflection horizontal optical axis 8 and changes its traveling direction.
The reflected horizontal optical axis 8 passes through the center of the reticle collimation mark in a horizontal state (herein, the horizontal state means that it is parallel to the optical axis of the field image in the aiming telescope 13).

The reticle collimation mark moves up and down (or left and right) while operating the reticle adjustment knob 14 in accordance with the distance to the target and the natural condition in the aiming telescope 13. Corresponding to the fluctuations, the irradiation direction of the irradiation optical axis 7 is adjusted by the adjusting jig 2 so that an optimum reflection horizontal optical axis 8 can be obtained. Reference numeral 15 in the drawing denotes an eyepiece frame.
Since the holder presser 11 is screwed into the holder 3, the holder 3 can move smoothly without play and is devised to stabilize the irradiation direction of the irradiation optical axis 7.

Further, the reflecting plate 9 reflects the laser light that has passed through the irradiation optical axis 7 so as to be surely the reflected horizontal optical axis 8, so that the position is calculated in advance so that it becomes the correct position. It is necessary to be disposed in. Needless to say, the reflecting plate 9 does not become an obstacle for viewing the field image of the aiming telescope 13.
As an example of the most preferable reflecting plate 9, a glass plate can be used.

Since a plurality of airtight packings 10 are arranged at necessary portions of the apparatus main body 1 of the present invention so as to keep the passage path of the laser light in the apparatus main body 1 airtight, the laser light is in a very stable space. Thus, the illumination light can be concentrated without being dispersed at the center of the collimation mark, and a reticle that is brighter and easier to see than the illumination light using the LED can be obtained.

The apparatus main body 1 of the reticle illumination device using the laser light generating element of the present invention can be set on the aiming telescope 13 as a retrofit.
That is, the mounting stopper 12 can be fixed so that the inner diameter portion is tightly tightened to the objective lens frame of the aiming telescope 13 by tightening or loosening the width of the plurality of notches formed in the inner diameter portion. It is comprised so that attachment of the main body 1 and the aiming telescope 13 can be completed. By loosening the mounting stopper 12, the apparatus body 1 can be removed from the aiming telescope 13 at any time.

  Furthermore, the reticle illuminating device using the laser light generating element of the present invention can be set so as to incorporate the apparatus main body 1 by being incorporated together when assembling the aiming telescope 13 instead of retrofitting to the aiming telescope 13. It is.

  Further, according to the present invention, even if the sighting telescope 13 without a reticle is set, the laser light generated from the laser light generating element 4 appears to be point-like for the user, so that the sighting is almost the same as when the reticle is present. There is a feature that an effect is obtained.

  According to the present invention, it can be used very conveniently in the industry in which the aiming telescope is manufactured or used.

DESCRIPTION OF SYMBOLS 1 Apparatus main body 2 Adjustment jig 3 Holder 4 Laser beam generating element 5 Power supply 6 Cover body 7 Irradiation optical axis 8 Reflection horizontal optical axis 9 Reflection plate 10 Airtight packing 11 Holding fixture presser 12 Attachment stopper 13 Aiming telescope 14 Reticle adjustment Knob 15 Eyepiece frame

Claims (1)

The laser light generating element is held by a holder provided in the apparatus main body, and the holder and the laser light generating element are arranged outside the field of view of the aiming telescope, and the optical axis of the emitted laser light is oblique to the longitudinal direction of the aiming telescope. A laser beam generating element is arranged so that the laser beam can be crossed, and a single reflector is provided to reflect the optical axis of the laser beam emitted from the laser beam generating element as a horizontal optical axis at the center of the collimation mark on the reticle. The holding tool is provided with an adjustment jig configured to be movable in and out so that the inclination angle of the holding tool can be adjusted , and the apparatus main body can be detachably fixed to the objective lens side of the aiming telescope. A laser beam emitted from the laser beam generating element is provided with an attachment stopper, and can generate a nearly perfect plane wave or spherical wave while maintaining high coherence. Heather light reticle illumination device using a laser light generating device characterized by be straight without diffusion over long distances.

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